Daiki Okazaki, Wenqing Song, I. Morichika, S. Ashihara
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引用次数: 0
Abstract
There have been extensive researches on mode-locked mid-infrared lasers [1], because they show higher spectral brightness than thermal light sources which had been used for broadband molecular vibrational spectroscopy. Those lasers usually possess smooth bell-shaped spectrum, however it is also interesting to investigate the possibility of spectrally structured sources. There are a few researches on narrowband dispersive spectral peaks formation on mode-locked pulses with intracavity gaseous molecules [[2, 3]. Recently, we have reported the symmetric spectral peaks appear on the mode-locked Cr:ZnS laser spectrum [4]. In this paper, compared to our previous report [4], we further investigate this phenomenon through numerical simulations, and clarify that the symmetric spectral peaks are formed by amplitude modulation brought from imaginary part of the molecular optical constant.
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